Análisis dinámico en el remo de banco fijola trainera

  1. Lorenzo Buceta, Héctor
  2. Pérez Treus, Sergio
  3. García Soidán, José Luis
  4. Arufe Giráldez, Víctor
  5. Alfonso Cornes, Xavier
  6. Alfonso Cornes, Alexandre
Revista:
Retos: nuevas tendencias en educación física, deporte y recreación

ISSN: 1579-1726 1988-2041

Ano de publicación: 2014

Número: 25

Páxinas: 120-123

Tipo: Artigo

Outras publicacións en: Retos: nuevas tendencias en educación física, deporte y recreación

Resumo

The fixed seat rowing is not a sport that has its largest Olympic potential in the northern regions of Spain. The accelerometer is based on the ability to objectively quantify technical variables, mechanical and biomechanical factors. The purpose of this research study is to analyze the dynamic components of strength, power, acceleration acting on the set of the boat and rowers in testing trainera, in order to determine the requirements of the competition. After analysis of the 633 strokes that occurred in a test of 5556 meters away found an average maximum force shovelful of 4596.85±552.85 N. There were significant differences (p<.001) between the number of strokes of each length, the second where they make fewer strokes and where less force is applied to the stroke. The maximum force of stroke were significant differences (p<.001) compared to long, the last long where more force is applied maximum stroke. The second length, while having a lower force application, they found high levels of feed per stroke in relation to the other three times. This research is a starting point for the implementation of the accelerometer in the fixed seat rowing, since their values give importance on the technical aspects and conditional, being able to get values to determine fatigue levels in each of the lengths of the competition

Referencias bibliográficas

  • Affeld, K., Schichl, K., & Ziemann, A. (1993). Assessment of rowing efficiency. International journal of sports medicine, 14, S39 S41.
  • Anderson, R., Harrison, A., & Lyons, G.M. (2005). Accelerometrybased feedback – Can it improve movement consistency and performance in rowing?. Sport Biomechanics, 4(2), 179-195.
  • Boudoin, A., & Hawkins, D. (2004). Investigation of biomechanical factors affecting rowing performance. Journal of Biomechanics, 37, 969-976.
  • Boyd, L., Ball, K., & Aughey, R. (2013). Quantifying External Load in Australian Football Matches and Training Using Accelerometers. International Journal of Sports Physiology and Performance, 8, 44-51.
  • Callaway, A., Cobb, J., & Jones, I. (2009). A Comparison of Video and Accelerometer Based Approaches Applied to Performance Monitoring in Swimming. International Journal of Sports Science & Coaching, 4(1), 139-153.
  • Chen, K.Y., & Basett, D.R. (2005). The Technology of AccelerometryBased Activity Monitors: Current and Future. Medicine and Science in Sports & Exercise, 34(11), 490-500.
  • Cook, I., Alberts, M., & Lambert, S. (2012). Influence of Cut-points on Patterns of Accelerometry-Measurament Free-Living physical activity in rural and urban black south African women. Journal of physical activity and Health, 9, 300-310.
  • Colloud, F., Bahuaud, P., Doriot, N., Champeli, S., & Chéze, N. (2006). Fixed Versus free-floating stretcher mechanism in rowing ergometers: Mechanical aspects. Journal of Sport Science, 24(5), 479-493.
  • Doyle, M.M., Lyttle, A., & Elliott, B. (2010). Comparison of forcerelated performance indicators between heavyweight and lightweight rowers. Spots Biomechanics, 9(3), 178-192.
  • Federación Española de Remo (2011) Código de regatas de la Federación Española de Remo. Disponible en www.federemo.org
  • Hill, H., & Fahrig, S. (2009). The impact of fluctuations in boat velocity during the rowing cycle on race time. Scandinavian Journal of Medicine and Science in Sports, 19, 585-594.
  • Janssen, I., & Sachlikidis, A. (2010). Validity and reliability of intrastroke kayak velocity and acceleration using a GPS-based accelerometer. Sports Biomechanics, 9(1), 47-56.
  • Kleshnev, V. (1999). Propulsive efficience of rowing. Proc. XVII International Symposium on Biomechanics in Sports, Australia, June 30 – July 6.
  • Kleshnev, V. (2000). Power in rowing. Proc. XVIII Congress of ISBS, Hong Kong, Vol.II, 662-666.
  • Mattes, K., & Schaffert, N. (2010). New measuring on water coaching device for rowing. Journal of Human Sport and Exercise, 5(2), 226-239.
  • Pelham, T.W., Holt, L.E., Burke, D.G., & Carter, G.W. (1999). Accelerometry for paddling and rowing. XI International Symposium on Biomechanics in Sports, Amherst, Massachusetts – USA.
  • Pérez, S., García-Soidán, J.L., Arce, E., Portela, T., Alfonso, X., & Alfonso, A. (2012). Acelerometría aplicada en el piragüismo de aguas tranquilas. IV Congreso Internacional de entrenadores de piragüismo de aguas tranquilas, Catoira. Pontevedra.
  • Pruitt, L., Glynn, N., King, A., Guralnik, J., Aiken, E., Miller, G., & Haskell, W. (2008). Use of Accelerometry to Measure Physical Activity in Older Adults at Risk for Mobility Disability. Journal of Aging and Physical Activity, 16, 416-434.
  • Sanderson, B., & Martindale, W. (1986). Towards optimizing rowing technique. Medicine and science in sports and exercise, 18, 454- 468.
  • Smith, R., & Loschner, C. (2000). Net Power Production & Performance at Different Stroke Rates & Abilities During Sculling. XVIII International Symposium on Biomechanics in Sport, Hong Kong. China.
  • Tan, S., Batterham, M., & Tapsell, L. (2011). Activity Counts From Accelerometers Do Not Add Value to Energy Expenditure Predictions in Sedentary Overweight Individuals During Weight Loss Interventions. Journal of Physical Activity and Health, 8, 675-681.
  • Tanaka, C., Hikihara, Y., Ohkawara, K., & Tanaka, S. (2012). Locomotive and Non-Locomotive Activity as Determined by Triaxial Accelerometry and Physical Fitness in Japanese Preschool Children. Pediatric Exercise Science, 24, 420-434.
  • Vanhelst, J., Theunynck, D., Gottrand, F., & Béghin, L. (2010). Reliability of the RT3 accelerometer for measurement of physical activity in adolescent. Journal of sport science, 28(4), 375-379.
  • Weineck, J. (2005). Entrenamiento Total. Barcelona: Paidotribo.